KR20110010874A - Wind power generator - Google Patents

Abstract

The present invention relates to a wind power generator capable of producing electric power using wind, and more specifically, by installing a plurality of rotor blades in multiple directions to rotate the rotor blades regardless of the wind direction to generate power, horizontal rotation Wind power having a plurality of power generation means for generating electric power by pressurizing the safety device by using the rotor blades and the weight of the rotors equipped with the rotor blades. As for the power generation device,

A horizontal rotor blade rotating horizontally at the upper end of the pylon; and,

A plurality of blades meshed with the horizontal rotary blades and mounted in multiple directions;

A first power generator comprising a first power generator connected to the blade;

Horizontal rotating body horizontally rotated to the middle portion of the pylon; And,

A second generator connected to the horizontal rotating body;

A second power generation unit including a piezoelectric element mounted on a lower portion of the horizontal rotating body to generate electrical energy at a pressure of a pressure roller mounted at an end of the horizontal rotating body;

A horizontal power generation unit mounted with a plurality of horizontally rotating power generating fans at the bottom of the pylon;

A third generator connected to the horizontal power generator;

By providing a wind power generation device consisting of; a third power generation unit for generating electrical energy by the electromagnetic coil and the permanent magnet on the bottom of the power fan,

It is to provide a wind power generator that maximizes the efficiency of the wind.

Blade, power generating fan, horizontal rotating body, piezoelectric element, pressure roller, pylon, horizontal power generation part

Description

Wind power generation device

The present invention relates to a wind power generator capable of producing electric power using wind, and more specifically, by installing a plurality of rotor blades in multiple directions to rotate the rotor blades regardless of the wind direction to generate power, horizontal rotation Wind power having a plurality of power generation means for generating electric power by pressurizing the safety device by using the rotor blades and the weight of the rotors equipped with the rotor blades. It relates to a power generation device.

In modern times, fossil energy such as petroleum has reached its limit and its excessive use of fossil fuels seriously pollutes the earth's atmosphere. The threatening level was reached.

In order to protect the earth from the pollution of the atmosphere and environment generated by the fossil energy, and to obtain sufficient energy, methods for obtaining energy under natural conditions such as solar, wind, and sea have been sought specifically.

These are called solar power, wind power, tidal power, etc., and various studies are being conducted, and some of them are reaching the level of technology that produces energy directly.

Various wind turbine generators have been proposed to produce pollution-free energy from these natural environments.

A general wind power generator is composed of one blade and a generator that generates electrical energy by rotating the blade.

The wind power generator must have a built-in control means for matching the direction of the blade according to the direction of the wind blowing, such a control means is usually automatically controlled by using a computer.

Since one blade and a generator are installed in the pylon as described above, there is a problem in that more wind power generators must be installed in order to obtain electric energy of a required capacity.

As a result, a means for further maximizing the use efficiency of the wind is required. As a technique for maximizing the utilization of the wind, a bidirectional wind power generator equipped with both blades is proposed as 10-0737269.

In addition, a wind turbine of Patent No. 10-0656806 has been proposed.

The above-described wind turbine has a structure in which a plurality of rotors (rotor blades) are mounted on a support and rotates the main shaft of the generator by a plurality of rotors, thereby inducing a strong kf transfer action.

In addition, Patent Registration No. 10-0743475 proposes a variable electricity generating device of a wind power generator to enable the rotating cylinder to generate power regardless of the direction of the wind.

An object of the present invention is to provide a wind turbine generator that can make the most of the wind to improve the productivity of electrical energy.

Another object of the present invention is to provide a means for producing electrical energy using wind regardless of the direction in which the wind is blowing.

The present invention for solving the above object, a horizontal rotary blade that rotates horizontally on the upper end of the pylon; and a plurality of blades meshed with the rotary blade, mounted in multiple directions;

A first generator comprising a first generator connected to the blade, and a horizontal rotor rotating horizontally to a stop of the pylon; and a second generator connected to the horizontal rotor;

A second power generation unit comprising a piezoelectric element mounted on a lower portion of the horizontal rotating body to generate electrical energy at a pressure of a roller mounted at an end of the horizontal rotating body; A horizontal power generation unit in which a plurality of rotating power generation fans are superimposed and installed; and a third power generator connected to the horizontal power generation unit; It is intended to solve by providing a plunger galvanic device consisting of three power generation unit.

The wind power generator of the present invention having the above structure has a feature of producing a large amount of electric energy regardless of the direction of the wind,

A horizontal rotor blade rotating horizontally at the upper end of the pylon; and,

A plurality of blades meshed with the horizontal rotary blades and mounted in multiple directions;

A first power generator comprising a first power generator connected to the blade;

Horizontal rotating body horizontally rotated to the middle portion of the pylon; And,

A second generator connected to the horizontal rotating body;

A second power generation unit including a piezoelectric element mounted on a lower portion of the horizontal rotating body to generate electrical energy at a pressure of a pressure roller mounted at an end of the horizontal rotating body;

A horizontal power generation unit mounted with a plurality of horizontally rotating power generating fans at the bottom of the pylon;

A third generator connected to the horizontal power generator;

And a third power generation unit generating electric energy by an electromagnetic coil and a permanent magnet at a bottom of the power generation fan.

The wind turbine generator of the present invention configured as described above will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing the overall configuration of the present invention, Figure 2 is a front view showing the overall configuration, Figure 3a, b, c is an exemplary view showing an embodiment of a blade applied to the present invention.

Referring to the accompanying drawings, FIGS. 1 and 2,

A horizontal rotary blade 2 mounted on the upper end of the pylon 1 so as to rotate horizontally;

The rotary shaft 3 of the horizontal rotor blade 2 and the rotary shafts 5, 5 'of the plurality of blades 4, 4' mounted in multiple directions are meshed and mounted with gears 6,

The main shaft 7 of the gear 6 includes a first power generation unit T1 configured by connecting to a rotor (not shown) of the first generator 9,

A horizontal rotating body 10 formed by mounting a plurality of rotating pieces 12 to the guide 13 so as to horizontally rotate at the stop portion of the pylon 2, and the second generator 11 connected to the horizontal rotating body 10. ),

Mounting the pressure roller 14 to the end of the guide 13 of the horizontal rotating body 10,

A circular fixed plate 15 is installed on the lower portion of the horizontal rotating body 10, and a plurality of piezoelectric elements 16 are mounted on the circumference at regular intervals, and the piezoelectric elements 16 have a thin thickness thereon. A second power generation unit T2 provided with a pressure plate 17 and configured such that the pressure roller 14 mounted at the end of the guide 13 presses the piezoelectric element 16 to produce electric energy;

 The lower end of the pylon 1 has a first power generating fan 22 having a plurality of rotor blades 21 with the pylon 1 as an axis, and a diameter surrounding the outside of the power generating fan 22. The second power generating fan 23 and the third power generating fan 24 which surrounds the outside of the second power generating fan 23 are formed to overlap each other, and the first, second and third power generating fans 22 and 23 are formed. Ring gears 32, 33, 34 are respectively formed on the upper circumferential surface of the upper end 24, and the rotation shafts of the rotary gears 32a, 33a, 34a meshed with the gears 32, 33, 34 are formed. (32b) (33b) (34b) is installed into the gear box 35 to connect the main rotating shaft (not shown) with the third generator 30 to produce electrical energy,

Permanent magnets 26 are mounted on the bottoms of the first, second, and third power fans 22, 23, and 24 constituting the horizontal power generator 20,

The third power generation unit T3 configured to produce electric energy by attaching electric coils 28 on the circumference of the horizontal power generation unit 20 by installing circular base substrates 27 below the horizontal power generation unit 20. ).

The electric coil 28 is disposed directly below the permanent magnet 26 on the circumference of the bottom of the first, second, and third power generating fans 22, 23, 24 constituting the horizontal power generating unit 20. It will be obvious that the technology to produce electric energy by the permanent magnet 26 rotating in close proximity on the electric coil 28 is already known in the art and will not be described in detail.

In addition, it is natural that the wind power generator is provided with a storage battery, and excessive rotation of the horizontal rotor blades 2, the blades 4, 4 ′, the horizontal rotor 10, and the horizontal power generator 20 in the event of a gust or typhoon occurs. In order to prevent damage due to the above, it is a natural technology that the rotation control means for controlling excessive rotation is provided in the present invention, a detailed description thereof will be omitted.

In the wind power generator according to the present invention configured as described above, the horizontal rotary blades 2 constituting the first power generation unit T1 and the blades 4 located in the direction of the wind rotate by the blowing wind.

As a result, the main shaft 7 meshed with the gears 6 on each of the rotary shafts 3 and 5 rotates to produce electrical energy through the first generator and to supply and store the electrical energy.

At the same time, while rotating the horizontal generator 10 constituting the second power generation unit (T1) to operate the second generator 11 to produce electrical energy, the rotating piece 12 constituting the horizontal rotor (10) It is caused by the wind.

In addition, the pressure roller 14 fixed to the guide 13 supporting the rotating piece 12 presses the pressure plate 17 mounted on the fixed plate 15 in turn, thereby piezoelectric element 16. Is pressurized to produce electrical energy.

It is composed of at least three or more of the rotating pieces 12 constituting the horizontal rotating body 10, since the pressure roller 14 is mounted by the same number, the pressure roller 14 for rotating the piezoelectric element 16. ) Will sequentially press to produce electrical energy.

By this means, the second power generation unit T2 installed at the center of the pylon 1 operates to produce electric energy, and at the same time, the third power generation unit T3 also operates to produce electric energy.

In the horizontal power generation unit 20 constituting the third power generation unit T3, the first, second, and third power generation fans 22, 23, 24, which are composed of three, rotate simultaneously, and the first, The rotary gears 32a, 33a, 34a meshed with the ring gears 32, 33, 34 on the upper circumferential surfaces of the second and third power generating fans 22, 23, 24 are rotated, and The rotational force is to operate the third generator 30 by a gear group (not shown) built into the gearbox 35 to produce electrical energy.

Electrical energy is produced by the permanent magnets 26 and the electric coils 28 mounted to the lower portions of the first, second, and third power fans 22, 23, 24.

Thus, by generating a plurality of generators in one pylon (1) it is possible to improve the productivity of electrical energy.

In the present invention, as shown in the accompanying drawings, Figures 3a, b, c, it is possible to configure a variety of installation direction of the blade (4) installed on the pylon (1).

That is, as shown in Fig. 3A, the three blades 4, 4 ', 4 "can be arranged to be mounted at an angle of 120 degrees when viewed in plan view.

When the installation angles of the blades 4, 4 ', 4 "are formed at 120 degrees, any one of the blades 4 rotates to generate power when the wind blows regardless of the direction.

That is, since the maximum angle that one blade 4 can rotate can maintain an angle of 120 degrees, the three blades 4, 4 ', 4 "operate even when the wind blows from any direction 360 degrees. It will be able to produce electrical energy.

In addition, as shown in FIG. 3B of the accompanying drawings, the blade 4 may be installed in four directions to form an angle of 90 degrees, and may be configured to rotate by wind blowing in four directions.

In the present invention, a rotary gear rotated by ring gears 32, 33, 34 formed in the first, second, and third power generation fans 22, 23, 24 of the horizontal power generation unit 20. The internal structure of the gearbox 35 connected to the (32a) (33a) and 34a is omitted. Typically, a plurality of gears horizontally arranged in the gearbox are joined to transmit rotational force to a single main shaft. The technology that allows the main shaft to be introduced into the generator to generate power will be referred to as a conventional technology, and thus, detailed illustration and description are omitted.

That is, the structure of the gearbox to be applied to the present invention will be described briefly, and three rotation shafts are introduced into the gearbox, and gears mounted at the ends of the respective rotation shafts and transmission gears for transmitting rotational forces therebetween. And to concentrate their rotational force on one main shaft, this main shaft will be a structure to generate power by connecting to the generator, but the technique of rotating the main shaft by the arrangement of the gear is easily devised by those skilled in the art It may be said that specific illustration and description are omitted.

1 is a perspective view showing the overall configuration of the present invention

2 is a front view showing the overall configuration

Figure 3 a, b, c is a plan view showing an embodiment of a blade applied to the present invention

※ Explanation of symbols showing main parts of the drawings

1: pylon 2: horizontal rotor blade

3, 5, 5 ': axis of rotation 4,4', 4 ": blade

6: gear 7: spindle

9: first generator 10: horizontal rotating body

11: second generator 12: rotating piece

13 guide 14 pressure roller

15: fixed plate 16: piezoelectric element

17 pressure plate 20 horizontal power generation unit

22: first power fan 23: second power fan

24: third generation fan 26: permanent magnet

27: base substrate 28: electric coil

30: third generator 32,33,34: ring gear

32a, 33a, 34a: rotating gear 32b, 33b, 34b: rotating shaft

35: gearbox

Claims (4)

A horizontal rotary blade 2 rotating horizontally at the upper end of the pylon 1; A plurality of blades 4 and 4 'engaged with the horizontal rotor blade 2 and mounted in multiple directions; and A first generator (T1) consisting of; a first generator (9) connected to the blades (4) and 4 '; A horizontal rotating body 10 rotating horizontally at a stop portion of the pylon 1; A second generator 11 connected to the horizontal rotating body 10; A second power generation unit (T2) composed of a piezoelectric element (15) for generating electrical energy at the pressure of the pressure roller (14) mounted at the end of the horizontal rotating body (10); A horizontal power generation unit 20 in which a plurality of first, second and third power generation fans 22, 23 and 24 are horizontally mounted on the lower end of the pylon 1; Ring gears 32, 33, 34 are formed on the upper outer circumferential surfaces of the first, second, and third power fans 22, 23, 24, respectively, and the rotary gears 32a, 33a, 34a, respectively. And the rotary shafts 32b, 33b and 34b of the rotary gears 32a, 33a and 34a are introduced into the gearbox 35 so that the main shaft (not shown) is connected to the third generator 30. Connect to, And a third power generation unit (T3) for generating electrical energy by the electromagnetic coil (28) and the permanent magnet (26) at the bottom of the horizontal power generation unit (20). The method of claim 1, A horizontal rotary blade 2 mounted on the upper end of the pylon 1 so as to rotate horizontally; The rotary shaft 3 of the horizontal rotor blade 2 and the rotary shafts 5, 5 'of the plurality of blades 4, 4' mounted in multiple directions are meshed and mounted with gears 6, The main shaft 7 of the gear 6 includes a first power generation unit T1 configured by connecting to a rotor (not shown) of the first generator 9, A horizontal rotating body 10 formed by mounting a plurality of rotating pieces 12 to the guide 13 so as to horizontally rotate at the stop portion of the pylon 2, and the second generator 11 connected to the horizontal rotating body 10. ), Mounting the pressure roller 14 to the end of the guide 13 of the horizontal rotating body 10, A circular fixed plate 15 is installed on the lower portion of the horizontal rotating body 10, and a plurality of piezoelectric elements 16 are mounted on the circumference at regular intervals, and the piezoelectric elements 16 have a thin thickness thereon. A second power generation unit T2 provided with a pressure plate 17 and configured such that the pressure roller 14 mounted at the end of the guide 13 presses the piezoelectric element 16 to produce electric energy;  At the lower end of the pylon 1, a first power generating fan 22 having a plurality of rotor blades 21 around the pylon 1 and a diameter surrounding the outside of the first power generating fan 22 are defined. A horizontal power generation unit 20 formed by overlapping and installing the second power generation fan 23 with an excitation and a third power generation fan 24 surrounding the outside of the second power generation fan 23; Ring gears 32, 33, 34 are formed on the upper outer circumferential surfaces of the first, second, and third power fans 22, 23, 24, respectively, and the rotary gears 32a, 33a, 34a, respectively. And the rotary shafts 32b, 33b and 34b of the rotary gears 32a, 33a and 34a are introduced into the gearbox 35 so that the main shaft (not shown) is connected to the third generator 30. Connect to, Permanent magnets 26 are mounted on the bottoms of the first, second, and third power fans 22, 23, and 24 constituting the horizontal power generator 20, The third power generation unit T3 configured to produce electric energy by attaching electric coils 28 on the circumference of the horizontal power generation unit 20 by installing circular base substrates 27 below the horizontal power generation unit 20. Wind turbines, characterized in that provided with). The method of claim 1, Four blades (4) to be mounted on the upper end of the pylon (1), the wind turbine generator, characterized in that attached to form an angle of 90 degrees when viewed in plan view. The method of claim 1, The blade (4) mounted on the top of the pylon (10) is a wind turbine generator, characterized in that the three blades (4) (4 ') (4 ") is mounted so as to form an angle of 120 degrees when viewed in plan view.

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